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- MOHAMMED VI POLYTECHNIC UNIVERSITY
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Field
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laboratory-scale R&D on PCM-integrated heat exchangers, develop modelling tools (e.g., COMSOL, ANSYS, TRNSYS, MATLAB) for thermal and system-level optimisation, and support prototype fabrication
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modelling and optimisation for concrete surfaces. Developing simulation models (e.g. COMSOL, ABAQUS, ANSYS) for acoustic field prediction and performance evaluation. Designing, prototyping, and integrating
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manager is Sabine Rode. The recruited researcher will simulate flows within membrane modules using ANSYS Fluent computational fluid dynamics software. He or she will study the nature of flows and solute
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), using ANSYS Fluent, CFX, OpenFOAM or similar tools. Experience implementing advanced user-defined functions (UDFs) for reaction kinetics, rheology, and multiphase interactions. Automation, HPC and
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expertise in numerical modeling of multiphase or reactive flows (CFD experience required). Proficiency with at least one CFD framework (e.g., OpenFOAM, ANSYS Fluent). Solid understanding of heat and mass
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skills, with the ability to bridge theory and experimental data Experience with computational tools such as MATLAB, Python, and multiphysics simulation platforms (e.g., COMSOL, Ansys) Motivation to engage
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. Ability to perform finite element simulations using software such as COMSOL, ANSYS, or ABAQUS. Experience in utilizing these tools for in-depth analysis is highly desirable. Required License/Registration
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expertise in the analysis and design of concrete structures. Advanced proficiency in Finite Element Modelling (FEM) using tools such as Abaqus, ANSYS, RFEM, SAP2000, MIDAS or equivalent. Solid understanding
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device testing suite to perform advanced electrical, thermal to electric field analysis of devices, and simulation tools (ATLAS, ANSYS). Moreover, you will collaborate within our 35-member team as
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analysis of devices, and simulation tools (ATLAS, ANSYS). You will collaborate within our 35-member team, our academic and industrial partners and have the opportunity to make a major impact on future power